JPH04503037A - fast character generator - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] bitmap for generating the print signal that is fed to the marking engine in the evening. It is related to the Tup character generator.

LLL ball U.S. Patent No. 40 issued March 14, 1978 to Rider et al. No. 79458 is reduced to save storage space in character font storage. 0 disclosing a bitmap character generator in which character bitmaps are stored in the format Figures 2 and 3 are examples of the letter “A” in standard portrait and standard landscape modes, respectively. It shows a typical bitmap. The traditional M (full-width) square storage format is Compared to the reduced storage format indicated by dashed line 12 of the format described in the patent by Ida et al. In total, each bit within the 0 character indicated by the solid line 10 is Each bit outside the character that is represented as a 1 and within the rectangular boundaries of the character is a 0 As seen in Figures 2 and 3, the storage requirements for characters are expressed as is considerably reduced by removing surrounding areas that consist only of zeros. can be done. However, when reducing the format (size) using this method, character reference lines, spacing between characters, and words (words are 16-bit Certain information is lost, such as the number of groups of objects). reduced format font It is necessary to supply this information to the Butomatsu one-character generator when using 0 Figure 4 is shown in U.S. Pat. No. 4,079,458 using a reduced format bitmap font. 1 is a simplified block diagram of a prior art character generator of the type shown in FIG. this character generator receives print instructions from an input device (not shown), such as a personal computer. It is equipped with a main processing unit 20 that receives commands. Main memory 20 typically stores programs. It consists of a system-based microprocessor. The search table 22 shows the height, width, and frame of characters. Font parameters such as font address, as well as character alignment (ΔX, Δy) Contains font statistics such as ΔX, Δy are the bases of where the characters should be placed. By addressing the lookup table with a character identifier (ID) such as for directrix 1. Then, the search table 22 is searched for character parameters and statistical values. The main memory 20 is Use the character statistics to calculate the x, y page position for the character, and the height of the character, width, font address, and x,y page position to bitmap character generator 24. send. The bitmap character generator 24 inputs the font address and character height and width. to retrieve the character bitmap from the font storage 26 using from there to the marking engine (not shown). (not sent).

Buffer storage 27 can be stored from the line or page buffer depending on the design of the character generator. can become.

Since the main processing unit 20 is a programmable microprocessor, each font parameter The meter search takes a different order of machine instructions, but this is a processing device! consuming time and An improved version of the format that limits the speed of character generation and therefore uses a reduced font. It is an object of this invention to provide a character generator.

Fish "LΩ" L approx. This purpose is for each character to be generated by the character generator according to the invention. by preparing a storage device containing width, height and font address data. The zero constant speed access memory achieved by and directly input character width, height and font address information in response. A bitmap is supplied to the character generator, thereby increasing the overall speed of character generation.

In the adopted embodiment of this invention, width, height and font address data are Separate constant-speed recall storage devices are provided in the addressed in parallel. The font storage associated with the bitmap character generator is It accommodates multiple fonts, and the font address information is stored in the font selection code. Attire! is a double boat expression, so its contents should be changed to accommodate the new font. Can be changed by the main processor.

Ward l! 11 (Da Fumei FIG. 1 is a schematic diagram showing a Butomatsu one-character generator according to the present invention. I2 is a traditional em (full) square font [Il! This invention in portrait mode Figure 3 shows the line segments compared to the reduced font used by It is a line diagram comparing the shape font with the reduced font in landscape drawing mode, FIG. 4 is a schematic diagram illustrating a bitmap character generator representative of the prior art. FIG. 5 is a schematic diagram illustrating an apparatus for switching between font modes in accordance with the present invention. This is a schematic diagram.

Day t・meno゛ Referring to FIG. 1, a character generator according to the invention is shown, and here in FIG. Elements similar to those in are numbered similarly. Main processing unit 20 and related The associated lookup table 22 indicates the position where the reduced storage bitmap is printed and the bitmap The font style used when calculating the x=y position sent to the font generator 24. Only the measured values ΔX, Δy, and character spacing are stored. The x and y character positions are determined by the main processing unit. 20 is calculated as follows.

xwX+ΔX, and y=y+Δy Here, X is the position for each character along the line expressed in pixels! And also that Each new X is calculated from the previous X. In portrait coordination, Xm = X Cao It is a cross character interval, and Y is the position of the reference line of each character expressed in pixels! and between the lines determined by the desired spacing (e.g. single, 1/2, double, etc.) be done. In other configurations, X and Y are referenced to the paper, so they are separated. Increment to .

The font parameters required by bitmap character generator 24 are Character width W (in bits), character height H (in bits), and font memory Constant speed access memory f containing the character start address (FA) in device 26 (RAM) 28.30, and 32. RAM28.30 and 3 2 are simultaneously addressed by the main processor 20 with a character identifier (ID).

The output of RAMs 28, 30 and 32 is the x, y statement computed as explained above. The bitmap character generator 24, along with character position information, is provided directly to the bitmap character generator 24.

Upon receiving the font parameters, the bitmap character generator 24 outputs the font to the ffFA. and searches for the first word of the characters stored in the font storage device 26, Send this word to page store location x,y.

Next, the bitmap character generator 24 generates the text at location FA+1 in the font store. Search for the word of the letter and use this as a page memory device! to position x+16, y. Bitma The Tup character generator uses this method to convert bitmap words into fonts up to N=H character height. Continue sending from memory location FA+N to page memory location fix+16N, y If the six characters @W are only one line, the character generation is complete. .

If the width W is greater than 1, the bitmap character generator The next word at position FA0H+1 is the page storage location! 'x+1. send to y Ru.

The next word in FA+W+2 is x+1. sent to y+16, and in the same way, finally Bitmap character generator 2 to which the second column of words in the bitmap is sent. 4 continues in this manner until the entire character has been sent to page storage.

Main processor 20 then stores the next character ID in parameters RAM 28, 30 and 32. to generate the next character in the image.

In selected embodiments of the invention, several character fonts are stored in the font storage device 2. 6 is stored. the font identifier is combined with the character identifier, and The combination identifier is width, height and font address RAM 28.30 and 32 plus For example, if a 7-bit ASCII character identifier is paired with a 6-bit font identifier, are combined to form a 13-bit ID that is added to RAM. font identification Since the child changes relatively infrequently relative to the character identifier, the font identifier It is generated once by main processor 20 and stored in a latch until changed.

7-bit ASCII character identifiers commonly used in the United States and for switching between commonly used 8-bit extended ASCII character identifiers. Preparations are also underway. For 8-bit ASCII character identifiers, 5-bit 1 is a schematic diagram illustrating an apparatus for switching between ASCII and ASCII modes; FIG. 8bi The character identifier is supplied to a bit combiner 42 by a line 40 from the main processor 20. It will be done. In 8-bit extended ASCII mode, all 8 bits are used. Ru. In 7-bit ASCII mode, only the first 7 bits are used.

A 6-bit font identifier is provided on line 44 to latch 46. font identification All 6 bits of the child can be used with 7 bit ASCII code However, only 5 bits of the font identifier are used with the 8-bit extended ASCII code. It will be done. The mode switch 48 controlled by the main processor 20 is a character identifier code. can be switched between the 8th bit of the font identifier code and the 6th bit of the font identifier code. Ru. This mode switch changes the type of font stored in the font storage device 26. used to select the appropriate character and font identifier bits accordingly.

In the adopted method of carrying out this invention, RAMs 28, 30 and 32 and Since the font storage device 26 is double-boated, new fonts can be easily loaded into the storage device. can be heroized.

Explanation of font bitmap and definition of x, y page position 1 are related to portrait mode. However, this invention can be applied to other character layouts as well, such as landscape mode. It is effective for

Upper gender and 1° The character generator according to the invention is useful in all point addressable printers, It is also advantageous because characters can be easily generated for higher printing speeds.

FIG. 2 C3 international search report international search report US9006212 S^　41623

Claims (6)

[Claims] 1. Bitmap table of information to be printed by an all-point addressable printer An apparatus for generating a current, comprising: a. Bitmap representation of information to be printed a buffer storage device for storing b. Bitmap table of character fonts in reduced format a font storage device for storing the current c. Stores Δx, Δy, and character spacing statistics for reduced format character fonts font statistics storage for, d. Character width, height, and font address parameters for reduced-format character fonts A font parameter storage device for storing font parameters for specific character identifiers. Before generating the width, height, and font address for the specified character in response a font parameter storage device; e. Font statistics storage and font parameters font statistics storage and in response to a print command; inspecting font statistics from storage to generate x,y character positions; and a main process that can send specific character identifiers to the font parameter storage. equipment, and f. Main processing unit, buffer storage, font parameter storage, and font storage It is connected to a storage device and receives x, y character positions and font parameters from the main processing device. Font notation in response to width, height, and font address from meter storage. Search the character bitmap from the storage device and transfer the retrieved bitmap to the buffer storage device. a bitmap character generator that can be placed in x,y character positions of An apparatus for generating the above, comprising: 2. The font parameter storage is simultaneously addressable by character identifier and Three constant speed call marks each containing width, height and font address information. 2. The device according to claim 1, comprising a storage device (RAM). 3. Dual port to allow RAM to update its contents by the main processor 3. The device of claim 2, wherein: 4. The font storage device contains multiple fonts and character identifier codes. Combined with font identifier code to address font parameter storage a combination device for generating an identifier code used for The device according to item 1. 5. 5. The method of claim 4, further comprising a latching device for latching the identifier code. equipment. 6. The character identifier code can be a 7-bit or 8-bit code, and each bit identifier code can be a 5-bit or 6-bit code, and The display device generates an 8-bit character identifier code combined with a 5-bit font identifier code. and a 7-bit character identifier code combined with a 6-bit font identifier code. 5. The apparatus of claim 4, including a switching device for switching between.